FI110204B - Lubricant removal arrangement - Google Patents

Abstract

A lubricant discharge arrangement in a bearing housing (14) of an electric motor includes an end shield (1) of the electric motor, on the outer surface of which there is a lubricant discharge opening (2) to be closed by a closing element (3). The closing element includes a frame-like member (4) arranged at the discharge opening and surrounding the entire discharge opening. The member includes an opening (5) which is substantially equal in size to the discharge opening and penetrates the member (4) and forms a channel open at its both ends. The opening (5) is arranged to be closed tightly by a closing element (6) and is connected to a control element (7) for opening and closing the closing element.

Description

1 110204

Lubricant removal arrangement

Field of the Invention

The invention relates to a lubricant discharge arrangement, in particular for removing lubricant from the bearing housing of an electric motor. Such a system typically includes a bearing plate for an electric motor comprising an inner surface facing towards the inside of the electric motor and an opposite outer face, a lubricant outlet on the outer face of the bearing plate and a sealing means for closing the lubricant outlet.

BACKGROUND OF THE INVENTION 10 The shaft of an electric motor is typically supported on the motor body by at least two body bearings, which are typically located on both ends of the motor body. Lubricants are used to lubricate the bearings. In order to introduce the lubricant to the bearing into the housing of the electric motor, the bearing shield forming the end member of the housing is generally provided with a bearing housing, into which the lubricant is led along the lubricant channel. At the end of the lubricant channel there is a grease nipple from which the lubricant is pressed into the lubricant channel. In addition, a lubricant outlet is provided on the bearing plate to allow excess lubricant to escape from the bearing housing. Various closure means are used to close this lubricant outlet, such as a screw screwed into the opening, a plastic plug pressed into the opening, or a grease collection box mounted on the opening. The opening may also have been left completely open.

In the prior art, the bearings of the electric motor are lubricated during maintenance by squeezing fresh grease from the grease nipple into the lubricant housing. This also opens the lubricant outlet so that excess lubricant can escape from the bearing housing. Lubrication is typically done by squeezing pure lubricant through a grease nipple into a bearing housing, after which the grease nipple is closed. Leave the lubricant outlet open and allow the engine to run for a few hours before closing the lubricant outlet. Thereby, excess lubricant can escape from the bearing housing via the lubricant outlet.

However, there are significant problems with this arrangement, described above, in which the lubricant outlet is closed by means of a screw, plug or the like. The electric motor is often positioned in its place of use, for example as a pump in an industrial process, so that it is difficult to access the lubricant outlet 35. In addition, shutdown of electric motors

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2 110204, even for short maintenance, is often impossible without disrupting the process, whereby opening and closing the lubricant outlet screw or plug in a running engine can even be fatal to the installer if the engine is adapted to rotate, for example, a fan rotating at 5 Further, the motor may be housed such that it is impossible to open the lubricant outlet screw without disassembling.

These maintenance problems described above can easily cause significant damage to the engine and its environment. When lubricating the grease nipple, the grease outlet screw may not be opened at all; The bearing bracket is then filled with lubricant, whereupon the bearing begins to heat up and thereby the lubricant expands to further heat the bearing. In this case, the lubricant begins to drain out of the bearing and lubricant housing uncontrollably, for example at the joints 15 and seals, causing engine contamination and uncontrolled spillage of the lubricant into the engine environment, causing significant damage to a clean environment such as the food industry and hospitals. Also, the bearing may overheat and damage the entire engine if overheated. ^ 20 Another problem is that the lubricant outlet sealing device is opened but not replaced at all during lubrication · after maintenance. This will allow the lubricant to spill into the environment, which will cause significant damage in a clean environment. · · 'In addition, the motor suffers from leakage and dust and moisture through the open hole in the motor bearing housing, which can damage the bearing and the motor.

A prior art solution comprising a lubricant outlet on the bearing shield of an electric motor, which is adapted to be closed by screwing on a screw, plug or similar closing means, thus easily causes serious problems to the motor, its environment and proper maintenance! Doing so requires unnecessary time and additional costs.

Brief Description of the Invention

The object of the present invention is to eliminate the disadvantages of the prior art: · ': and to provide an improved solution for closing the lubricant outlet on the bearing plate of an electric motor.

110204 This is achieved by an arrangement having the features defined in the claims according to the present invention. More specifically, this arrangement according to the invention is essentially characterized in that the lubricant outlet closure means on the bearing plate of the electric motor | 5 comprises a substantially cylindrical structural member disposed at the outlet, having a hole of substantially the size of a bearing kiwi lubricant outlet, which is arranged to be closed by a sealing member which closes the opening and is connected to a control member for opening and closing the closure.

The invention is based on the idea that a lubricant outlet on the bearing plate of an electric motor is provided with a closure means comprising a frame surrounding the outlet arranged on the outlet of the outlet. The frame has an opening the size of a bearing rock lubricant outlet, which is closed by a sealing member, preferably of a slide 15 or a flap type, which closes the opening. A control member is connected to the closure member from which the closure member can be opened and closed by guiding. By doing so, the use of a sealing means is considerably easier and faster than being screwed, pressed, or otherwise installed immediately in the vicinity of the lubricant outlet.

Preferred embodiments of the invention are claimed in the dependent claims.

The closure member of the closure means is preferably a planar sliding slide.

In this case, the closure means is shaped with respect to the direction of piercing of the opening: a transverse groove in which the slide is arranged to move by sliding, thereby moving, ···. a racket slider in the groove away from the opening will open the opening and vice versa, '' · 25 moving the slide in front of the opening will close the opening.

Preferably, the closure member may also be a flap. In this case, the closure member is arranged to open by means of a hinge mechanism by pivoting about the support point of the hinge mechanism. Preferably, the closure member comprises a spring mechanism arranged to hold the closure member in a closed position. The flap sealing member is, however,: - X 30 adapted to open under the influence of the lubricant pressure and thus: .. to open the lubricant outlet if the discharge lubricant exerts: - a sufficiently high pressure on the closure member.

, ···. In connection with lubrication, opening and closing can advantageously be effected by a control means connected to the closure means, for example a tan-: 35-like shaft portion with a first end attached to a slide and a second end dimensioned to permit divergence of the closure means. outside the exterior dimensions, ie the side of the engine, eliminating the need for dangerous installation near the motor shaft. In addition, the position or protrusion of the control means arm serves as a visual indication of the open / closed position of the closing means.

The bearing plate of the electric motor preferably has a horizontal groove in the width of the bearing plate parallel to the surface of the bearing plate, underneath the lubricant outlet. In this case, the control means of the closure means is arranged in the groove of the bearing plate and move in the groove. When the closure member is slid, a protrusion is formed on the surface 10 of the electric motor resting against the bearing plate, which is fitted to a recess in the groove of the bearing plate and limits the movement of the closure member to cover the outside dimension of the opening. This has the advantage that the shutter means slider can be guided from outside the transverse outer dimensions of the electric motor, i.e. the motor side, and that all components of the shutter means can be fitted inside the longitudinal exterior dimensions of the electric motor bearing plate.

The invention provides considerable advantages. The lubricant outlet of an electric motor mounted in its place of use is simple to open and close by means of a side-controlled closure means according to the invention. : 20 The process run by the engine will not be interrupted by opening or closing the lubricant outlet, nor will the lubricant outlet be closed. ··. in the engine presenting a danger to the installer. Further, the motor housing does not need to be disassembled to open the lubricant outlet, since the handle of the control means can be easily dimensioned to extend to the outside of the housing: 25. This can save maintenance time and costs.

The solution according to the invention thus enables better control of the lubrication event. In this way, lubrication can always be done in accordance with the instructions, which also avoids engine contamination and uncontrolled spillage of the lubricant into the engine environment, as well as the possible bearing. '·' 30 overheating and damage from the lubricated bearing housing. In addition, the sealing of the motor can be kept good, for example according to protection class IP66, because it is always easy to set the closing device to the '·· closed position.

BRIEF DESCRIPTION OF THE DRAWINGS

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The present invention will now be further explored with reference to the accompanying drawings, in which: Fig. 1 shows an electrical motor bearing climb having a lubricant outlet fitted with a slider-type closure according to one embodiment, Fig. 2 shows an axonometric view of a Fig. 3 is a lateral view of the frame member of the closure of Fig. 2, Fig. 4 is a sectional view of the lubricant outlet of Fig. 1, Figure 6 is a cross-sectional view of the bearing shield seen from the direction of penetration of the lubricant outlet, Figure 6 illustrates a seal 15 of the lubricant outlet of Figure 1; and Fig. 7 is an axonometric view of the bearing plate of the electric motor: Figs. Fig. 9 shows the structure of the flap type closure device of Fig. 8 in the closed position with the view from the direction of the lubricant outlet and • Ί 25 Fig. 10 shows the structure of the flap type closure device * of Fig. 8 with the mouth of the lubricant outlet.

DESCRIPTION OF THE PREFERRED EMBODIMENT; ; Referring to Figures 1-10, an example of the structure and operation of a lubricant discharge arrangement in a typical preferred embodiment is described.

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As shown in Fig. 1, the arrangement comprises an electric motor bearing plate *; ·. 1, the central part of which forms part of the bearing housing 14 of the electric motor. The bearing IV sulfur plate 1 comprises an inner surface 1a facing the inner part of the electric motor and ·: ·· 35 an opposite outer surface 1b. The outer surface 1b of the bearing plate 1 has a lubricant outlet 2 which typically opens with the engine mounted e 110204 downwards. A lubricant passage is provided in the lubricant outlet port 2, and a grease nipple is provided at the end of the lubricant channel, from which the lubricant is pressed into the lubricant port. The electrical motor bearings are lubricated during maintenance by squeezing fresh grease from the grease nipple into the lubricant housing.

The sealing means 3 of the lubricant outlet 2 comprises the entire framed member 4 surrounding the outlet 2, which is arranged at the outlet 2. open channel. This opening 5 and the channel are arranged to be closed by a sealing member 6 which seals the opening 5. The closure member 6 of the closure means 3 is a planar sliding slide, a preferred embodiment of which is shown in Figures 4 and 5. The surface of the closure member 6 to limit the movement of the closure member 6 to cover the outer dimension of the outlet 2.

The frame member 4 of the sealing means 3 also has fastening members 9, such as fastening lugs, for securing the frame member 20 of the sealing means 3, for example with screws, to the bearing plate 1 of the electric motor. rubber, but it can also have some good sealing properties. detective material.

2 and 3, the closure means 3 has a groove 8 transverse to the direction of the piercing Y \ 25 of the opening 5, into which the closure member 6 is arranged to move. The width of the groove 8 is greater than the height 5 of the opening 5 of the closing means 3 and the length 8 of the groove 8 is the width of the frame-like component 4. The slide member 6, i.e. the slide 6, pushed into the groove 8 then closes the channel formed by the frame member 4 of the closure means 3 and the opening 5 therein, so that the lubricant in the bearing housing 30 does not escape from the bearing housing 14. The closure gap 6 -, a hole 5 formed by the frame-like structural member 4 and an opening 5 in it, whereby the excess lubricant in the bearing housing 14 can be discharged from the bearing housing 14.

8, the closure member 6 of the lubricant outlet 2 is of the flap type: an inner surface 1a and an opposite outer surface 1b. The outer surface 1b of the bearing plate or cover 1 has a lubricant outlet 5 which typically opens with the engine mounted downwards. A lubricant outlet means is provided with a closure means 3 which closes the outlet 2. an opening 5 in the size of an outlet opening, which pierces the entire structural member 4 to form an open channel at both ends. This opening 5 and the passage are arranged to be closed by a sealing closure member 6 which closes the opening 5. The closure member 6 of the closure means 3 is a flap, the preferred embodiment of which is shown in Figures 15, 8, 9 and 10. The closure member 6 by rotating about 15 support points of the hinge mechanism. The closing member 6 of the closing means 3 comprises a spring mechanism 16. The spring mechanism 16 is implemented by a spring mechanism known per se, such as a helical or torsion spring. The spring mechanism 16 is arranged to hold the closure member 6 in the closed position. However, the spring force of the spring mechanism is dimensioned so that the closing member 6 of the closure means 3 is opened by the lubricant pressure if the lubricant discharged from the lubricant outlet exerts a sufficiently high pressure on the closure member 6, i.e. the flap.

The frame member 4 of the sealing device 3 also has fastening members 9, such as fastening lugs, for securing the frame member 4 of the sealing device 3, e.g. with screws, to the bearing plate 1 of the electric motor. material.

2 and 3, the closure means 3 has a groove 8 transverse to the piercing direction of the opening 5, into which the closure member 6 is arranged to move. terrestrial. The width of the groove 8 is greater than the height 5 of the opening 5 of the closing means 3 and the length 8 of the groove 8 is the width of the frame-like component 4. The slide member 6, i.e. the slide 6, inserted into the groove 8 then closes the passage formed by the frame member i '·' 35 of the closure member 3 and the opening 5 therein, whereby the lubricant in the bearing housing 14 cannot escape from the bearing housing 14.

8 110204

Correspondingly, the closure member 6 pulled at least partially from the groove 8 opens the channel formed by the frame member 4 of the closure means 3 and the opening 5 therein, whereby the excess lubricant in the bearing housing 14 can be discharged from the bearing housing 14.

From Figures 1,4,5, 7, 8, 9, 10, it can be seen that the closing means 6 of the closing means 3 is connected to a control member 7 for moving the closing member 6 and for opening and closing the closing means. This control means 7 coupled to the closure member 6 of the closure means 3 typically comprises a rod-shaped arm portion having a first end attached to the closure member 6 and a second end of the rod 10 being dimensioned so long as to permit the slider 6 to be guided from the outside

The control means 7 connected to the closing means 6 of the closing means 3 indicates that the closing means 3 is in the open / closed position by the visible position or projection outside the transverse external dimensions of the electric motor of the arm 15 of the guide means 7.

1, 4, 5, and 6, a horizontal groove 20 10 substantially parallel to the surface of the bearing plate 1 is formed on the outer surface 1b of the bearing shield 1b below its lubricant outlet 2. In this case, the guide means 7 "of the shutter in the groove 10 and to move in the groove 10. The groove 10 has a recess 12 wide in its center, i.e. at the lubricant outlet 2, the outlet member 2. The closure member 6 has a protrusion 6a formed on the side surface of the bearing plate 1 25 to the recess 12 and to limit the movement of the closure member 6 to cover the outer dimension of the outlet 2.

In the embodiment of Figure 1, the bearing plate 1 of the electric motor has a vertical groove 13 formed below the lubricant outlet 2. Through this groove 13, excess lubricant can be discharged from the lubricant outlet 2 via the motor end plate 1 out of the bearing housing 14. r conditions, a lubricant collecting device, such as a box, bag or the like, can be secured to this groove 13 immediately below the lubricant outlet 2, whereby excess lubricant accumulates and does not flow along the motor bearing plate 1L <: 35; Collectibles may be of the "·" type to be emptied and cleaned or disposable.

9 110204

The sealing means 3 of the lubricant discharge opening 2 according to the above embodiment is structurally fit within the outer dimensions of the electric motor. All components of the closing means 3 are arranged inside the longitudinal outer dimensions of the bearing plate 1 of the electric motor. If there is a need-to-list for indicating the position of the closure member 6 by extending the arm portion of the guide means outside the outer dimensions of the motor, it is possible. However, the entire arm portion of the guide means 7 may be completely embedded in the horizontal groove 10 of the bearing plate 1, in which case all components of the closure means 3 fit inside the outer dimensions of the electric motor body.

It is to be understood that the foregoing description and the accompanying drawings are merely intended to illustrate the present invention. Thus, the invention is not limited to the embodiment set forth above or as defined in the claims, but many variations and modifications of the invention which are possible within the scope of the inventive idea defined in the appended claims will be apparent to those skilled in the art.

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Claims (15)

A lubricant discharge arrangement, in particular in an electric motor bearing housing (14), comprising: - an electric motor bearing plate (1) comprising an inner surface (1a) facing the inner part of the electric motor and a opposite outer surface (1b), - a bearing plate (1). 1) a sealing means (3) for closing the lubricant outlet (2) on the outer surface (1b) and a lubricant outlet (2), characterized in that: - the sealing means (3) comprises a substantially entire outlet (2) arranged at the outlet (2). ) with a peripheral frame member (4), wherein - the member (4) has an opening (5) substantially the size of an outlet (2) of the bearing plate (1), which pierces the member (4) to form an open channel at both ends; is arranged to be closed by a sealing member (6) which seals the opening (5), to which - the closing member (6) is connected to a control member (7) for opening and closing the closure member (6). Arrangement according to Claim 1, characterized in that -. of the closure means (3), the closure member (6) is a planar sliding slide. Arrangement according to Claim 2, characterized in that the closure means (3) comprises a groove (8) which is substantially transverse to the opening direction of the opening (5) into which the closure member (6) is arranged to move. '25 Arrangement according to Claim 1, characterized in that the closing element (6) of the closing means (3) is a flap. Arrangement according to Claim 4, characterized in that the closing element (6) of the closing means (3) is arranged to open by means of a hinge mechanism by pivoting about a support point of the hinge mechanism. Arrangement according to Claim 4 or 5, characterized in that the closing element (6) of the closing means (3) comprises a spring mechanism arranged to hold the closing element (6) in the closed position. '7. An arrangement according to claim 6, characterized in that the closing means (6) of the sealing means (3) is arranged to open the lubricant pressure; 35, when applying sufficient pressure to the closure member (6). 110204 Arrangement according to Claim 2 or 4, characterized in that the guide means (7) connected to the closure member (6) of the closure means (3) comprises a substantially rod-shaped arm part. Arrangement according to Claim 8, characterized in that the control means (7) connected to the closing means (6) of the closing means (3) is dimensioned to extend outside the transverse external dimensions of the electric motor, enabling the closing means (3) . Arrangement according to Claim 8, characterized in that the control means (7) connected to the closing means (3) of the closing means (3) is arranged to indicate the closing means (3) in the open / closed position based on the projection outside the transverse external dimensions of the . 10 1 10204 Arrangement according to Claim 8, characterized in that the control means (7) connected to the closing means (3) of the closing means (3) is arranged to indicate the closing means (3) in an open / closed position based on a visible position outside the transverse external dimensions of the . An arrangement according to claim 1, characterized in that a horizontal groove (10) extending substantially parallel to the surface of the bearing plate (1) is formed on the bearing plate (1) substantially below its lubricant discharge opening (2). ). Arrangement according to Claim 12, characterized in that the closure member (6) comprises a protrusion (6a) on a surface 25 supported against the bearing plate (1) and arranged in a recess (12) formed by a groove (10) in the bearing plate (1). fit and limit the movement of the closure member to cover the outer dimension of the outlet (2). Arrangement according to Claim 13, characterized in that the guide means (7) of the closing means (3) of the closing means (6) is arranged in the groove (10) of the bearing plate (1) and move in the groove (10). : .X Arrangement according to one of the preceding claims, characterized in that all the components of the closing means (3) are arranged inside the longitudinal exterior dimensions of the electrical plate bearing plate (1). 35 12 1 10204